Generation and data management of a medical study using instruments in an integrated media and medical system

ABSTRACT

In general, a computer-implemented method is described for retrieving by one or more computers an appointment schedule associated with a physician, the appointment schedule including one or more names of patients scheduled for a medical visit with the physician, receiving a first request to view appointment information for a selected patient, retrieving by one or more computers a first list comprising instruments completed by the selected patient, and receiving a second request to send one or more instruments completed by the selected patient to the physician.

CLAIM OF PRIORITY

This application claims priority under 35 U.S.C. §119(e) to provisional U.S. Patent Application 61/253,398, filed on Oct. 20, 2009, the entire contents of which are hereby incorporated by reference.

BACKGROUND

Medical forms are used to collect data and information regarding a patient's symptoms and conditions. One technique for preparing a medical form is to manually edit a pre-existing form (e.g., a form existing in Microsoft Word™ format) with new or customized questions. The form is then sent to review boards for review through a physical or electronic mailing. Additionally, once a form has been finalized, it may be presented to a patient, study participant or other individual (collectively referred to as “patients” herein, without limitation, for purposes of convenience). For example, physicians may present patients with the forms when the patient visits the physician's office. Additionally, hardcopy (i.e., paper) versions of medical forms may be distributed to patients for completion. For patient's who have not completed medical forms prior to the patient's examination, the patient may often complete the medical form at the physician's office by filling out a hardcopy of the form.

Frequently, the patient's responses to the questions included in the medical forms are entered into a computerized system by medical personnel. In this case, in order for a physician to review the patient's responses, the physician may access the computerized system and view the answers to the questions, which is often a lengthy process of reviewing individual questions.

SUMMARY

The techniques described above fail to provide an integrated system for generating and validating an instrument (e.g., medical forms and questionnaires) and collecting data associated with the validated instrument, such that the data is more readily accessible to researchers for analysis.

In one exemplary embodiment, the techniques described herein provide, for example, an integrated system for physicians and other health care providers to generate instruments that are reviewed and validated through the use of threaded discussions and also to distribute the generated instruments to patients for completion. In another exemplary embodiment, the results of completed instruments are stored in a database that is integrated with the system and that is accessible to researchers and collaborators for review.

One aspect of the disclosure provides a computer-implemented method for tracking by one or more computers a patient's medical appointment with a physician, retrieving by one or more computers one or more instruments the physician requires the patient to complete prior to the medical appointment, and determining by one or more computers one or more required instruments that the patient has not completed.

Implementations of the disclosure may include one or more of the following features. In some implementations, the method includes generating a graphical user interface that when rendered on a display device renders: a visual representation of a notification of the one or more required instruments that the patient has not completed; and a link, selection of which causes the display device to display a selected instrument, with the link being juxtaposed to the visual representation of the notification.

Another aspect of the disclosure provides a computer-implemented method for retrieving by one or more computers an appointment schedule associated with a physician, the appointment schedule including one or more names of patients scheduled for a medical visit with the physician, receiving a first request to view appointment information for a selected patient, retrieving by one or more computers a first list comprising instruments completed by the selected patient, and receiving a second request to send one or more instruments completed by the selected patient to the physician.

Implementations of the disclosure may include one or more of the following features. In some implementations, the method includes receiving a third request to add one or more instruments to a second list comprising instruments that the selected patient is required to complete. The method may also include retrieving one or more medical assessment rules, applying by one or more computers the one or more medical assessments rules to medical data included in the instruments completed by the selected patient, and determining, based on the application of the one or more medical assessments rules, at least one of diagnosis information, treatment information and medication information for the selected patient.

In other implementations, the method includes generating by one or more computers a graphical user interface that when rendered on a display device renders a visual representation of a portion of the patient's anatomy for which at least one of diagnosis information, treatment information and medication information were determined by the one or more medical assessments rules. The method may also include generating by one or more computers an association between at least one of the diagnosis information, treatment information and medication information for the selected patient and a medical visit between the selected patient and the physician.

Another aspect of the disclosure provides a computer program product residing on a computer readable storage medium, the computer program product comprising instructions for causing a computer to: track a patient's medical appointment with a physician, retrieve one or more instruments the physician requires the patient to complete prior to the medical appointment, and determine one or more required instruments that the patient has not completed.

Implementations of the disclosure may include one or more of the following features. In some implementations, the computer program product includes instructions for causing the computer to generate a graphical user interface that when rendered on a display device renders: a visual representation of a notification of the one or more required instruments that the patient has not completed, and a link, selection of which causes the display device to display a selected instrument, with the link being juxtaposed to the visual representation of the notification.

Another aspect of the disclosure provides a computer program product residing on a computer readable storage medium, the computer program product comprising instructions for causing a computer to: retrieve an appointment schedule associated with a physician, the appointment schedule including one or more names of patients scheduled for a medical visit with the physician, receive a first request to view appointment information for a selected patient, retrieve first list comprising instruments completed by the selected patient, and receive a second request to send one or more instruments completed by the selected patient to the physician.

Implementations of the disclosure may include one or more of the following features. In some implementations, the computer program product includes instructions for causing the computer to receive a third request to add one or more instruments to a second list comprising instruments that the selected patient is required to complete. The computer program product may also include instructions for causing the computer to retrieve one or more medical assessment rules, apply the one or more medical assessments rules to medical data included in the instruments completed by the selected patient, and determine, based on the application of the one or more medical assessments rules, at least one of diagnosis information, treatment information and medication information for the selected patient.

In other implementations, the computer program product includes instructions for causing the computer to generate a graphical user interface that when rendered on a display device renders a visual representation of a portion of the patient's anatomy for which at least one of diagnosis information, treatment information and medication information were determined by the one or more medical assessments rules. The computer program product may also include instructions for causing the computer to generate an association between at least one of the diagnosis information, treatment information and medication information for the selected patient and a medical visit between the selected patient and the physician.

Another aspect of the disclosure provides an apparatus comprising: a processor; and a computer program product residing on a computer readable storage medium, the computer program product comprising instructions for causing the processor to: track a patient's medical appointment with a physician; retrieve one or more instruments the physician requires the patient to complete prior to the medical appointment; and determine one or more required instruments that the patient has not completed.

Implementations of the disclosure may include one or more of the following features. In some implementations, the computer program product includes instructions for causing the computer to perform the features described above, for example, instructions for causing the computer to generate a graphical user interface that when rendered on a display device renders: a visual representation of a notification of the one or more required instruments that the patient has not completed; and a link, selection of which causes the display device to display a selected instrument, with the link being juxtaposed to the visual representation of the notification.

Another aspect of the disclosure provides an apparatus comprising: a processor; and a computer program product residing on a computer readable storage medium, the computer program product comprising instructions for causing the processor to: retrieve an appointment schedule associated with a physician, the appointment schedule including one or more names of patients scheduled for a medical visit with the physician; receive a first request to view appointment information for a selected patient; retrieve first list comprising instruments completed by the selected patient; and receive a second request to send one or more instruments completed by the selected patient to the physician.

Implementations of the disclosure may include one or more of the following features. In some implementations, the computer program product includes instructions for causing the computer to perform the features described above, for example, instructions for causing the computer to receive a third request to add one or more instruments to a second list comprising instruments that the selected patient is required to complete.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a diagrammatic view of a system for generating and tracking medical study instruments.

FIGS. 2, 3, 7, 15 are flowcharts of processes used by a medical integration system.

FIGS. 4-6, 8-14 and 16-18 are screen images of a graphical user interface generated by the medical integration system.

DETAILED DESCRIPTION

Overview

The system described herein provides, for example, an integrated information and communication platform for outcome and evidence-based medical research. Using the system, researchers may design studies to test the efficacy of medical devices, medical instruments and medical treatments. Through the system, researchers may also collaborate with colleagues to validate and to refine the study and invite patients to participate in the study. Patients may further access the study through the system.

In the exemplary embodiment described herein, through the use of portal systems and dashboards, researchers have access to the progress of a study and real-time feedback from the participants of the study. The described system collects data from the study and stores it in a database accessible to patients, physicians, nurses, health care providers, experts, researchers, reviewers and other individuals (collectively referred to as “users” herein, without limitation, for purposes of convenience) of the system, thereby enabling worldwide collaborative research. As data is collected from the study, the exemplary system provides research analysis tools that enable users of the system to quantify outcome of a treatment under study by performing, for example, Rasch analysis, factor analysis, model testing, and a variety of statistical analysis to assess reliability, scaling and scoring of the results of the study. The exemplary system also includes data mining tools to detect patterns in the collected data and convert continuous data into discrete categories of data.

FIG. 1 illustrates a particular exemplary embodiment described herein. Referring to FIG. 1, the illustrated network computer system 100 includes a medical integration system (e.g., a server) 102 for making connections with users of the system 100, including patients 104, at client systems 106, and health care professionals (e.g., physicians, medical clinic staff, research collaborators and research review boards) 108, at client systems 110. In a preferred embodiment, the system may operate over a network 112, e.g., the Internet or other types of networks. The medical integration system 102 operates as a service running on, for example, a web server 114. In this embodiment, users 104, 108 of the system 100 may connect to the medical integration system 102 through a website or graphical user interface on the web server 114 using client systems 106, 110.

Client systems 106, 110 include, for example, mobile devices (e.g., cellular and mobile telephones, Blackberries™, iPhones™ and personal digital assistants), personal computing devices (e.g., laptop and desktop computers and iPads™), dedicated computing devices (e.g., kiosk systems installed in a doctor's office or medical clinic), and media-player-type devices. Client systems 110 also include furniture equipped with a computing device. In a particular example, a chair in a physician's office includes a mounted personal computing device (e.g., a laptop connected to the arm rest of a chair) through which users access the medical integration system 102 over the network 112. In this example, because numerous patients use the personal computing device, an ultraviolet (“UV”) light may be included in the personal computing device and cast on the keyboard of the personal computing device to remove and destroy germs located on the personal computing device.

The illustrated medical integration system 102 includes an instrument generation module 116, an instrument validation module 118, a data mining and research tools module 120, a procedure determination module 122, and a patient flow module 124. Through a communication channel, including for example and without limitation a connection, a buffer or a path between various nodes in a network, the medical integration system 102 may also access one or more databases 126 and one or more electronic medical record (“EMR”) systems 128 to import data (e.g., medical data from external and/or internal data sources) into the medical integration system 102. The components and modules 116, 118, 120, 122 and 124 of the medical integration system 102 and the web server 114 may be integrated or distributed in various combinations as is commonly known in the art.

Instrument Generation Module

In the exemplary embodiment described herein, users may generate study instruments (e.g., forms and questionnaires) for studies (e.g., medical studies) through the instrument generation module 116 of the medical integration system 102. In a preferred embodiment, an instrument generation system includes an instrument generation module.

The instrument generation module 116 enables a user to define various features of a study, including a study description, a list of instruments used in the study, a study and/or instrument timeline, invitations for doctors to participate in the study, and a checklist of criteria for a patient to posses for inclusion in the study. The instruments may include pre-defined forms and questionnaires stored in the medical integration system 102, and forms and questionnaires custom designed for a particular study. The pre-defined instruments can be augmented through the association of additional data, including lab tests and observations provided by physicians, nurses, care givers, or family members.

FIG. 2 illustrates a particular exemplary embodiment described herein. Referring to FIG. 2, the medical integration system 102 executes 130 and combines various processes including the following. In this exemplary embodiment, the medical integration system 102 generates 132 an instrument, as described in further detail below. The medical integration system 102 also receives 133 patients' responses to competed instruments and stores 134 the patients' responses in the database 126. A scoring system including scoring rules defines how a patient's responses to answers in an instrument are valued or “scored,” as described in further detail below. The medical integration system 102 retrieves 135 from the database 126 one or more scoring rules and generates 136 an instrument score by applying the scoring rules to the answers associated with an instrument.

In this embodiment, the medical integration system 102 performs data analysis on the stored patient responses and generates visual representations of the data analysis which is presented to users of the medical integration system 102 through a graphical user interface. The medical integration system 102 receives 137 a request from a user for data matching criteria that the user has entered. The medical integration system 102 generates, for example, a query based on the entered criteria and queries 138 the database 126 for data matching the entered criteria included in the query, as described in further detail below. The medical integration system 102 also generates 139 a visual representation of the data matching the entered criteria.

FIG. 3 illustrates a particular exemplary embodiment described herein. Referring to FIG. 3, the medical integration system 102 generates 140 a study instrument, as follows. The medical integration system 102 receives 142 a description of the study entered into the system 102 through a graphical user interface 144, an example of which is illustrated in FIG. 4. The description of the study may include study details (e.g., information about a study), the name of the study, study duration (e.g., a length in time which the study is available for a patient to complete), a number of patients to be included in the study, and clinic accessibility information (e.g., whether physicians within a clinic are granted permissions to view a study).

In this embodiment, the medical integration system 102 receives 148 various criteria for a patient to possess in order to be included in the study. The system 102 may generate a graphical user interface 150, an example of which is illustrated in FIG. 5. Through the graphical user interface 150, the user may enter various patient criteria, including diagnosis codes, International Statistical Classification of Diseases and Related Health Problems (“ICD”) codes (e.g., ICD-9 and ICD-10 codes), Current Procedural Terminology (“CPT”) codes and other various diagnosis information and treatment information and various inclusive or exclusive criteria (e.g., age information, height information, weight information and smoker status information). The system 102 includes, for example, a utility to search an ICD code library based on an ICD code description or a partial ICD code to find the correct code. Additionally, the system 102 may generate a list of predefined criteria and displays this generated list for the user during generation of the instrument.

In the exemplary embodiment described herein and referring back to FIG. 3, the medical integration system 102 receives 154 a selection of one or more instruments to be used in the study. The instruments include pre-defined forms, which may be standard for a particular industry, for example the medical industry. The instruments may also be custom generated, as described in further detail below. The medical integration system 102 generates 158 an instrument timeline, which specifies the time (e.g., a number of days, weeks or months) in which a particular question in the instrument should be answered by a patient participating in the study. The timeline may also include the amount of time an instrument is made available to the user to complete.

FIG. 6 illustrates a particular exemplary embodiment described herein. Referring to FIG. 6, the medical integration system 102 generates a graphical user interface 160 through which the timeline 162 may be displayed. In this embodiment, the illustrated timeline 162 includes a horizontal axis 164 specifying a number of months relative to the start date of the study for which a particular question should be completed by a patient. The illustrated timeline 162 may also include a vertical link 166, which is capable of moving along the horizontal axis 164 to select a particular month (e.g., two months or four months) in which a particular question should be completed by a patient. As user herein and throughout the application, the term “link” includes, without limitation, pointers, Uniform Resource Location links, a reference or pointer to physical data, and a file that serves as a reference to another file.

In the exemplary embodiment described herein and referring back to FIG. 2, the medical integration system 102 generates 170 invitation messages inviting physicians to join a study. The system 102 may include an invitation module, through which users invite physicians and other health care providers (collectively referred to as “physicians” herein, without limitation, for purposes of convenience) to participate in the study and to enroll their respective patients in the study. The invitation module generates, for example, a list of physicians associated with the user's hospital, clinic and/or research facility. The invitation module may also generate a list of physicians who have previously participated in studies generated by the medical integration system 102.

Through the invitation module, the user may select from the generated lists physicians to invite to join the study. To find physicians to invite to join the study, the user may also search the system 102 for the names of individual physicians to participate in and to collaborate in the study. In addition to inviting individual physicians, the user may define groups of physicians to participate in the study as collaborators, observers, and students of the instrument. In this embodiment, the medical integration system 102 stores the names of groups of physicians that have previously been defined and invited to join other studies. The medical integration system 102 allows the user to access and search these pre-defined groups of physicians and invite groups of physicians to join the user's study. Through the invitation module, a user may also invite a physician not currently enrolled in the system 102 to participate in the study. In this preferred embodiment, the invitation module sends an invitation message (e.g., an email or other electronic message) to join the study to the invited physicians.

In this exemplary embodiment, the medical integration system 102 generates 174 a study summary, including the information (e.g., study description information, patient criteria information, selected questionnaire information, timeline information, and invited physician information) input into the medical integration system 102 by the user. The system 102 may receive from the user a verification message indicating that the summary information is accurate. The medical integration system 102 generates 178 the instrument and sends the invited physicians a copy of the instrument and a list of the user specified patient criteria. The medical integration system 102 may also record the completion date by which specific questions in the instrument should be answered according to the timeline 162. The medical integration system 102 may also send alert messages (e.g., electronic messages, text messages or short message service (“SMS”) messages) of the upcoming completion dates to the participating patients.

In an exemplary embodiment, the medical integration system 102 also allows the user to specify whether “skipped questions” are allowed for the instrument and/or the number of questions to be completed before an instrument score is calculated. In a particular example, the user may specify whether the instrument allows a percentage of questions to be skipped or whether all questions in the instrument need to be completed.

Frequently, Internal Review Boards (“IRBs”) require a patient to fill out a consent form prior to participating in a study or completing an instrument. For this case, the medical integration system 102 includes a consent form module through which users upload one or multiple consent forms to be presented to the patient before participating in the study and/or before starting an instrument.

In an exemplary embodiment, once a generated instrument has been finalized, the medical integration system 102 provides the user with the options to start the study or to leave the study open for editing and trial runs. When the study is left open for trial runs and editing, for example, the medical integration system 102 may generate an online forum for collaboration between the study generator and other participating users. Additionally, in this example when the study is left open for trial runs and editing, the study instrument is editable, meaning that the criteria and the study options described above are editable. If the user selects the option to start the study, the system 102 may send the selected patients, participants and collaborators an invitation message to view and participate in the study by completing the instrument.

In another exemplary embodiment, a study may include a customized instrument generated through the medical integration system 102. Users are provided a secure space to generate medically-based questions originating from various question styles used by standard instruments. Multimedia modules may be attached to the questions to make the questions more understandable for the patients completing the instrument.

FIG. 7 illustrates a particular exemplary embodiment described herein. Referring to FIG. 7, the medical integration system 102 generates 190 a customized instrument, as follows. In this illustrated example, the medical integration system 102 receives 192 one or more questions and associated answers from a user. The medical integration system 102 also receives 194 from the user a scoring system associated with the questions and answers. The scoring system assigns a score value to each of the answers associated with a question, enabling a physician or researcher to assess the study results. The medical integration system 102 generates 196 scoring rules based on the numerical scores associated with answers. In some examples, the scoring rules add the numerical scores associated with completed answers. In this illustrated example, the scoring rules may calculate a weighted average for the numerical scores associated with the completed answers by assigning the questions a weighted value indicating the importance of the question relative to other questions. The medical integration system 102 prompts the user generating an instrument with a series of questions to determine the desired type of score system and may generate a cautionary notification if the user later applies an analytical procedure inappropriate for the selected score system (e.g., average age of study participants may be valid and important to a study, but average social security number is neither valid nor important to the study).

In generating a customized instrument, a user may select a type of question from a list of question types generated by the system 102. The types of questions include, for example, multiple-choice questions (e.g., one question with multiple number responses), a “Yes/No” question (e.g., one question with “Yes” or “No” as responses), a “True/False” question (e.g., one question with “True” or “False” as responses), a scaling question (e.g., one question and a sliding scale bar through which a user selects an answer located between two values, N1 and N2), an avatar/diagram question (e.g., an interactive question in which the user selects various sections of an image or freely draws on various sections of the image), a free response question in which a user inputs a predetermined amount of characters into a multi-line textbox (e.g., “describe in 1000 characters or less your symptoms”).

FIG. 8 illustrates a particular exemplary embodiment described herein. Referring to FIG. 8, the medical integration system 102 generates a graphical user interface 210 for a user to define custom questions for an instrument. In section 212 of the illustrated graphical user interface 210, the user may select the type of question to be added to the instrument. In this particular embodiment, the user enters question text (e.g., “do you have difficulty opening a tight jar?”) in section 214 of the illustrated graphical user interface 210. In section 216 of the illustrated graphical user interface 210, the user is provided the option of adding a multimedia module (e.g., an image, an audio file or an image) to the question to assist a patient in understanding or interpreting the question. In this particular embodiment, the system 102 receives from the user's client system 106 request messages including data indicative of custom questions to be included in the instrument.

FIG. 9 illustrates a particular exemplary embodiment described herein. Referring to FIG. 9, a multimedia module 220 may be linked to a question. In this particular embodiment, the illustrated multimedia module 220 includes a visual image 222 and an accompanying audio file 224.

Referring back to the illustrated example of FIG. 8, section 226 of the illustrated graphical user interface 210 allows the user to associate the question with a numerical score (i.e., numbers) and a score system, including, for example, a nominal system 228, an ordinal system 230, an interval system 232 and a ratio system 234. In a nominal score system, numerical identifiers are associated with a response (e.g., 1=blue, 2=red or 1=red, 2=blue). In an ordinal score system, the numerical scores are ordered in a meaningful way (e.g., 1=no pain, 2=some pain, 3=severe pain). In an interval score system, the difference between numerical scores is significant (e.g., a 20 degree temperature difference between answers relating to temperate correlates with a fixed amount of heat). In a ratio score system, the numerical scores represent a quotient, with the quotient indicative of the relative importance of an answer.

Numerical scores may be associated with question responses to facilitate scoring of an instrument and mathematical and/or statistical analysis. Frequently, studies are designed to test the efficacy of a medical procedure, treatment or device. Accordingly, in a preferred embodiment, numerical scores are associated with questions, where a higher numerical score indicates that the treatment is effective and a lower numerical score indicates that the treatment is not effective or is less effective. In this embodiment, an instrument includes the following question: “Did you experience an improvement in your symptoms following the treatment?” Answers associated with this question include, for example, a “Yes” answer, a “Moderately” answer, and a “No” answer. A numerical score of “3” is associated with the “Yes” answer. A numerical score of “2” is associated with the “Moderately” answer. A numerical score of “1” is associated with the “No” answer. In the illustrated example of FIG. 8, the answers 236, 238, 240, 242, 244 associated with a question are assigned a numerical score 246, 248, 250, 252, 254 based on the selected score system 228, 230, 232, 234. Additionally, in this example, a text box 256, 258, 260, 262 and 264 is provided in which the user enters text corresponding to the answers associated with the question.

In the exemplary embodiment described herein, the answers to questions may be associated with a color value indicative of a feature of the answer (e.g., answers directed toward a level of pain experienced by a patient or a level of difficulty the patient experiences in performing an activity). When the medical integration system 102 generates visual representations of the answers to a question, the visual representations may be color coded based on the color value associated with an answer.

FIG. 10 illustrates a particular exemplary embodiment described herein. Referring to FIG. 10, the medical integration system 102 generates a graphical user interface 270 including, for example, answers to multiple questions. In this embodiment, the “no difficulty” column 272 of answers is color coded green. The “mild difficulty” column 274 of answers is color coded yellow. The “moderate difficulty” column 276 of answers is color coded orange. The “severe difficulty” column 278 of answers is color coded light red. The “unable to complete” column 280 of answers is color coded bright red.

A color value system may be executed by the medical integration system 102 in generating the illustrated graphical user interface 270 with the various colored columns of answers 272, 274, 276, 278, 280 according to the following color value rules, for example. Answers with a color value of “1” are assigned a color code of green, indicating that the physical action (e.g., preparing a meal) specified by the question is easy for the patient to perform. Answers with a color value of “2” are assigned a color code of yellow, indicating that the physical action specified by the question is mildly difficult for the patient to perform. Answers with a color value of “3” are assigned a color code of orange, indicating that the physical action specified by the question is moderately difficult for the patient to perform. Answers with a color value of “4” are assigned a color code of light red, indicating that the physical action specified by the question is severely difficult for the patient to perform. Answers with a color value of “5” are assigned a color code of bright red, indicating that the patient is not able to perform the physical action specified by the question.

In the exemplary embodiment described herein, an instrument includes various sections. A section includes, for example, its own set of instructions that pertain to a grouping of questions. A section also includes one or more associated questions. The types of instruments include patient instruments and physician instruments. Patient instruments are designed to be filled out by or on the behalf of a patient. Physician instruments are designed to be filled out by or on behalf of a physician in regards to a patient. Instruments may be translatable to the primary language of the user and are translatable in real time, based on a selected language of the user. Through an instrument translation module, the medical integration system 102 enables the generation of multi-lingual studies.

In one exemplary embodiment, the questions included in an instrument are associated with alerting features. The medical integration system 102 generates alerts by enabling physicians to establish answer threshold values for a question or an instrument. In this embodiment, if a patient fills out an instrument and the patient's answer to a particular question or questions exceeds a threshold value, the medical integration system 102 generates and sends the physician a notification message (e.g., an email or an alert icon is posted on a physician dashboard graphical user interface). In a particular example, for the question “on a scale of 1-10 how much pain do you experience in your knee when you wake up in the morning?,” a physician establishes an answer threshold value of 8, indicating that system 102 generates and sends a notification message to the physician when a patient selects a value of 8, 9 or 10 in answering this question. The notification messages may be posted on a dashboard graphical user interface generated by the medical integration system 102, providing physicians with a quick view of responses to a physician's instrument without the physician having to review many instruments to ascertain where patient responses exceed predefined answer threshold values.

In another exemplary embodiment, instruments may be assigned a predetermined availability date: the date on which the instrument becomes available to the user. In one particular example, this date is set directly through a value being entered into a textbox by a user. In another particular example, the date is indirectly set by a reference to a number of days, weeks, months or years (e.g., 10 weeks from today). Instruments may also be assigned a duration of availability. During this duration (e.g., a number of days, weeks, months or years), the instrument is available for a user to complete.

Instrument Validation Module

In the exemplary embodiment described herein, when a customized instrument is generated, a new set of questions included in the customized instrument are reviewed, rated and validated in many review phases, with an individual phase modifying and/or eliminating questions until the instrument is final. Frequently, associations, institutions and clinics assemble expert panels to validate the custom generated instruments prior to the instruments' deployment to patients. In this case, the medical integration system 102 may generate online review forums to serve a global set of researchers or a single organization/clinic or physicians, reviewers and experts (collectively referred to as “panel members” herein, without limitation, for purposes of convenience). The review forums allow a physician or researcher who generated the study (collectively referred to as “submitter” herein, without limitation, for purposes of convenience) to submit the questions to be refined to the panel members in a secure, distributed and online environment. Through the review forums, for example, questions are viewed, commented on, rated and verified collaboratively by the panel members.

FIG. 11A illustrates a particular exemplary embodiment described herein. Referring to FIG. 11A, the medical integration system 102 generates a graphical user interface 300 that includes, for example, a visual representation of a virtual forum for the panel members to collaborate and review an instrument. In this illustrated example, section 302 of the graphical user interface 300 includes a list of postings 304, 306, 308, 310 made by the various panel members for an instrument. The illustrated postings 304, 306, 308, 310 include threaded discussions linked to a particular question or feature of the instrument (e.g., the instrument timeline). Panel members collaborate with one another for private discussions using threaded discussion boards before passing information onto the submitters of the instrument. As the submitters respond to the postings 304, 306, 308, 310, the submitters' responses are added to the threaded discussion.

In one exemplary embodiment, the review forums include a rating system, through which panel members access tools to rate an instrument, including a list of predefined questions to consider in reviewing the instrument. The rating system enables the panel members to rank the quality of a question and the question's associated score system and numerical score.

In another exemplary embodiment, the review forums also include a scoring validation system to validate the scoring system associated with an instrument. Through the scoring validation system, panel members may review and comment on the validity of the scoring system associated with the instrument and the validity of the numerical scores assigned to individual questions within an instrument.

When a submitter and panel members have completed review of an instrument (e.g., single or multi-centered studies), the medical integration system 102 permits the electronic generation of trial studies to further validate the instrument and its questions and score system. During trial studies, for example, the medical integration system 102 engages patients to participate in the trial study, by emailing the finalized instrument to patients and soliciting feedback (e.g., feedback regarding study length or understandability of a question). Patients may provide feedback through the review forums, which include a section for a clinical trial threaded discussion.

In the exemplary embodiment described herein, through the medical integration system 102, a finalized instrument (i.e., a finalized customized and non-customized instrument) may be sent to patients to participate in the study. Patients are selected to participate in a study by the patient's physician, based on the patient's qualifications, including, for example, age and gender. Physicians are able to enter patient name and other identifying information (e.g., email address and home address) into the medical integration system 102. In this embodiment, the medical integration system 102 also queries data repositories, including EMR systems, for the names of patients qualified to participate in a study. The medical integration system 102 may generate a list of the patients qualified to participate in a study and may enable a user to link (e.g., through a pointer) a selected patient to a particular study. As a result of the link, the system 102 may generate a notification message notifying the patient that he has been selected to participate in a study. In some examples, the patient is notified by an electronic message sent to the patient's electronic mail address. In other examples where the patient has a user account with the medical integration system 102, the patient is notified through a dashboard message or alert displayed in the patient's dashboard graphical user interface when the patient logs into the medical integration system 102.

Referring to the illustrated example of FIG. 10, the medical integration system 102 may generate a dynamic instrument form graphical user interface 270 through which users view and complete an instrument. The illustrated dynamic instrument form graphical user interface 270 may include a form progress indicator 282, which displays a portion of the instrument completed by the user. In this illustrated example, the form progress indicator 282 also displays a visual representation of a percentage of questions completed.

The illustrated dynamic instrument form graphical user interface 270 also includes, for example, an auto-scroll feature (not shown), which allows users to easily navigate an instrument without the use of a scrollbar or a mouse wheel. Upon completion of a question within an instrument, the page automatically scrolls to the next unanswered question.

The dynamic instrument form graphical user interface 270 includes, for example, a read-only mode for the review of past instrument results. The dynamic instrument form graphical user interface 270 also includes a try-it mode which allows a user to view, fill out and score an instrument without any data being recorded in the database 126. Try-it mode allows physicians who are unfamiliar with an instrument to fully understand the instrument before assigning the instrument to patients.

In one exemplary embodiment, a skipped question manager may monitor skipped questions within an instrument. When a user skips a question, the manager marks and notifies the user (e.g., by a prompt box) before final submission of the instrument to the system 102. In another exemplary embodiment, an audio reader feature within the medical integration system 102 returns and plays an audio rendition of a current question as an instrument is being completed. This feature can be toggled on or off by the user. The audio files may be recorded and stored on the medical integration system 102 in a digital format and relate to the respective question. Multi-language support is provided for the audio recordings.

Frequently, multiple instruments may include questions that contain similar content and/or the same content. In this case, a condense similar question module condenses into a single view or graphical user interface questions across a single instrument or across multiple instruments that are similar in type and responses. The condensed view is then presented to the user. Through condensed views, the page size of an instrument may be reduced, generating the appearance of a smaller instrument that is more manageable for a user to answer. In a preferred embodiment, the condense similar question module executes rules that match pre-defined key words to words included in a question by comparing one or more characters included in the question to the pre-defined keywords. If multiple questions include characters matching (e.g., exact match, similar match or some variation thereof) the predefined keywords included the rule, the module generates a condensed view of the multiple questions including the matching characters.

FIG. 11B illustrates a particular exemplary embodiment described herein. Referring to FIG. 11B, the system 102 generates a graphical user interface 312 that when rendered on a display device renders visual representations of eight questions 311 a-311 h as a condensed question 313 in a “carousel” form. The graphical user interface 312 includes, for example, links 314 a, 314 b. In this illustrated example, when a user selects a link 314 a, 314 b, the system 102 generates another graphical user interface which displays the next question causing the view of the questions 311 a-311 h to “rotate” the next question.

In one exemplary embodiment, the condense similar question module may generate follow up or adaptive questions, which are presented after a user has responded to a question. These adaptive questions ensure that the response a patient provides for a question corresponds to the various questions across multiple instruments. Through the condense similar question module, for example, a user provides answers for questions across various instruments. Through these provided answers, the system 102 generates scores for questions across the various instruments, based on the questions' specified scoring system and the user's provided answers.

In another exemplary embodiment, a reward point module allows users to earn points for the completion of an instrument. As a user completes an instrument, a predetermined number of points are issued and associated with the user's account. At the end of a study, the accumulated number of points may be applied towards the purchase of items. In a particular example, as a physician generates a study instrument, the physician may assign a reward package to the study. A reward package maps a number of points to one or more questions included in the instrument.

Control Panel

In the exemplary embodiment described herein, users may access the medical integration system 102 through a control panel. Once a user has logged into the medical integration system 102 through the control panel, users are presented with information to conduct studies, organize patients and manage data.

FIG. 12 illustrates a particular exemplary embodiment described herein. Referring to FIG. 12, the medical integration system 102 generates a graphical user interface 320 including, for example, a control panel 321 or a dashboard graphical user interface. In the illustrated example, a section 322 of the control panel 321 notifies a user of a number of patients enrolled in the medical integration system 102. Another section 324 of the control panel 321 notifies a user of the number of studies in which the user is a participant. In this illustrated example, another section 326 of the control panel 321 notifies the user of the number of unfinished instruments the user needs to complete. Another section 328 of the control panel 321 notifies the user of a number of pending studies the user needs to join.

In one exemplary embodiment, an account information section of the control panel allows users to view and edit user account information, including the following information: first and last name information, gender information, race information, primary language information, date of birth information, and contact information (i.e., street address, city, state, zip code, email address, telephone number, mobile number and fax number). In another exemplary embodiment, through the control panel, a user changes the user's account password by inputting the original password, a new password and confirming the new password. Through the control panel, the user may specify the frequency (e.g., once, once a day or once every twelve hours) for which notification messages (e.g., emails) regarding the tardiness of an instrument's completion are sent.

Another section of the control panels allows, for example, a user to view the available instruments included in the database. Through a selectable link, a user may choose to view instruments, including specialty instruments (e.g., forms that are specific to knee issues) and custom instruments (e.g., instruments that have been customized for a clinic or instruments that are custom generated).

The control panel may also enable a user to manage studies by viewing information about studies, participating in studies and viewing study invitations, for example. The control panel may provide a search box through which users of the medical integration system 102 search for various studies and instruments.

FIG. 13 illustrates a particular exemplary embodiment described herein. Referring to FIG. 13, the medical integration system 102 generates a graphical user interface 340 including a manage studies section 341 of the control panel. In this illustrated example, the user is provided with a list of the studies generated by the user and the studies in which the user is a participant. The list includes, for example, the study name 344, a link 346, selection of which displays various details associated with the study, the number of patients in the study compared to a goal number of patients needed in the study 348, compliance information 350 (e.g., a percentage of instruments that have been completed), a study start date 352, a study end date 354, IRB status information (e.g., a stage of the IRB approval status), whether the study has been sent to the IRB, whether the study is pending IRB approval and communication, whether the IRB has approved the study, and whether the study is available to patients. The pending instruments portion of the control panel includes, for example, a listing all the pending instruments the user must complete.

The control panel may also provide the user with a list of pending instruments, including for example the following information: the name of the instrument, the patient to which the instrument has been assigned, the date the instrument became available, the date the instrument access expires, a numerical representation of the number of days left before the instrument access expires, a current status of the instrument (e.g., the instrument has not been started, the instrument has been started but not completed), a list of the questions in the instrument that have been completed and have a selected response, and a link to the instrument to begin completion.

In the exemplary embodiment described herein, the control panel may provide the user with a “study invitations” list: a list of the studies that the user has been invited as a participant. The study invitations list includes, for example, the study name and a link to view various details associated with the study, the name of the physician who generated the study, a brief description of the study, and a link 356 through which the user accepts or declines the invitation to participate in the study. The control panel may also include a section for users to assign instruments to patients and doctors. By assigning an instrument to a patient or a doctor, the patient or doctor is notified of the assigned instrument and of the need to complete the instrument.

In one exemplary embodiment, an instrument history section of the control panel displays a visual representation of the instruments completed by a patient and various completed instrument information, including, for example, the name of the instrument, the name of the patient who completed the instrument, the name of the physician who assigned the instrument, the date the instrument closed accessibility, the current status of the instrument, and a view of the individual responses of the instrument.

In another exemplary embodiment, the control panel may also include an instrument profile section which displays a visual representation of a pre-defined collection of instruments that are grouped together as a profile. These collections of instruments are used for ease of assigning commonly occurring instruments to patients. In one particular example, a collection of instruments, such as the SF-12 instrument, the KOOS instrument and the Marx instrument, used for new patients are collected into a profile called “New Patient.”

The control panel may also include a manage patients section for adding/editing/deleting a patient-physician relationship. The manage patients section includes, for example, a search box through which the user searches for patients based on first or last name, the clinic with which the patient is associated, and the gender of the patient. Once the system 102 locates a patient, a user may edit the information associated with the patient and/or delete the patient information and instrument history associated with the patient.

In the exemplary embodiment described herein, an overdue instruments section of the control panel displays a list of the patients that have at least one overdue instrument (e.g., an instrument that has a status of “not started” or “not completed”) and associated information, including for example the last name of the patient, the first name of the patient, the name of the clinic with which the patient is associated, an overdue count (i.e., the number of instruments that are deemed overdue), and a link to view the individual instruments that are overdue. Through selection of the link associated with an overdue instrument, the user has the option of extending the duration of time in which a patient has to complete the instrument or deleting the instrument from the list of instruments assigned to the patient.

The similar questions section of the control panel displays, for example, similar questions from other instruments based on a predetermined selected question included in a particular instrument as follows. The control panel displays a list of instruments available for use in a study. Based on the user's selection of a particular instrument, the medical integration system 102 may display the questions included in the selected instrument. Based on the user's selection of a particular question within the selected instrument, the medical integration system 102 may also determine other instruments with similar questions and display associated information, include for example: the name of the instrument including the similar questions, the question number within the respective instrument, the text of the actual question within the respective instrument, and whether the medical integration system 102 determined the similar question in the respective instrument to be an exact match or a similar match or some combination thereof.

In one exemplary embodiment, the print instrument section of the control panel allows users to select print parameters for the available instruments in the medical integration system 102. Before printing, the user may select whether the instrument is printed in color, black & white or grey scale. The user also selects the font size of the content within the instrument to suit the user's visual needs. Additionally, the printable instrument defaults to the print in the user's default language. Once the print parameters are selected, the user may download and print the instrument.

In another exemplary embodiment, a manage groups section of the control panel allows the user to manage the groups the user has invited to participate in a study, for example by editing (e.g., adding members to a group) and deleting groups. The manage groups sections may also include a groups list with the following fields: the group name, the description or purpose of the group, and the number of members in the group.

The control panel also includes, for example, a manage users section for adding and/or editing and/or deleting other users stored in the database 126 of the medical integration system 102. Users may locate other users by performing a first and/or last name user search and/or a clinic search (e.g., a search for the user based on the clinic with which the user is associated). The medical integration system 102 determines the names of users matching the entered search criteria and displays the search results based on first name, last name and/or clinic association information.

In the exemplary embodiment described herein, the control panel includes an IRB management section which allows users to manage IRB submissions by the physician generating the study. IRB management section eases the relationship and the transfer of documents between the IRB and the physician. An instrument submission from a physician is added to the IRB management section of the control panel, for example, along with study information, consent forms and other required documentation required for IRB approval.

Access to the Medical Integration System

Users access the medical integration system 102 in various ways, including, for example, portal access, clinic access and email link or uniform resource location (“URL”) access. For portal access, users of the medical integration system 102 may be assigned account information (e.g., a username and a password) and may access the medical integration system 102 through a web page or other access graphical user interface using the assigned account information. To log into the user's account, the system 102 verifies the user's username and password combination. Once a valid combination has been given, the user may be prompted with a security question, which the user generated during account setup.

To keep up with the fast paced traffic that many clinics receive, the medical integration system 102 enables “clinic access,” in which a clinic authorizes system access on a computer (e.g., a dedicated machine or kiosk), thereby enabling a simplified login process. Once a computer has been authorized and designated as a “clinic machine,” the login process includes, for example, the user inputting the user's full name and date of birth information into the system 102 to access the user's account or a particular instrument or to access the user's appointment with a physician.

Some patients prefer not to access the medical integration system 102 through a username and password combination. To accommodate these patients, the medical integration system 102 enables email link and URL access by sending the user an electronic message (e.g., text message, email message or a SMS message) with an embedded link (e.g., URL hyperlink) through which the user accesses the system 102.

Clinics and other users (e.g., researchers and physicians) may also purchase a membership on a per clinic basis or on a per use basis to access the medical integration system 102. System membership allows a user to access the system 102 a specified number of times or an unlimited number of times.

In the exemplary embodiment described herein, users of the medical integration system 102 may be assigned a system role, which determines the permission level available to the user and the system functionality provided to the user. Some users are assigned multiple system roles and different system roles for different clinics. The types of system roles include, for example, clinic administrator, to manage the doctors and physician assistants associated with a clinic and to perform other administrative tasks, including managing patients' addresses, payments and other system membership information. Other system roles include, for example, the physician role, the physician assistant role, the patient role and the IRB administrator role.

In one exemplary embodiment, system roles are associated with a permission level, including permission to generate a new study, join a study, add patients to an existing study, invite doctors to join a study, view the details of a study, post a message to all members within a study, assign instruments to users, generate a new patient profile for a clinic, view patients associated with a clinic, view clinic patients first names and last names, join a group, generate a group, search for groups, post messages to members in a group, edit the details of a membership, view memberships associated with a clinic, edit clinic memberships, associate physicians, physician assistants, and clinic administrators with a clinic, de-associate a user with a clinic and view overdue instruments.

In another exemplary embodiment, user actions performed within the medical integration system 102 are logged. Various user actions performed within the medical integration system 102 may be executed by the system 102 through backend database queries. These queries may be logged and saved, providing a record of a user's identity and a time when information was accessed and providing a record of the type and the content of the accessed information.

Global Research Database

In the illustrated example of FIG. 1, as patients complete instruments, the medical integration system 102 receives instrument data (e.g., answers to the questions included in the instruments) and stores this received instrument data in one or more databases 126. In this example, patients access and complete instruments by accessing the instruments over the illustrated network 112 (e.g., the Internet or an intranet). Accordingly, the instrument data may be sent over the network 112 to the medical integration system 102 and may be stored in the database 126. Database 126 may include multiple databases running on the same machine or on different machines.

In the exemplary embodiment described herein, database 126 stores de-identified instrument data to protect patients' privacy and offer a research space for researchers worldwide. The instrument data may be de-identified by removing patient name, address, and other demographic data to comply with the Health Insurance Portability and Accountability Act (“HIPAA”) and other privacy concerns. In doing so, the physician losses access to data associated with the physician's patients, instruments and submissions. To enable a physician who generated the instrument to locate the physician's patients and access fields (e.g., name and address information) that the physician is entitled to access, the de-identified data may be linked or otherwise associated with an identifier, including without limitation a unique identifier, a numerical identifier and an encrypted identifier (e.g., an encrypted hidden code) (collectively referred to as an “encrypted identifier” herein, without limitation, for purposes of convenience.) Through the encrypted identifier, the physician may access, view and identify information removed during the de-identification process and associated with the physician's patients. In one particular example, the encrypted identifier may be generated by the system 102 using a random number generator as is commonly known in the art.

In this exemplary embodiment, the encrypted identifier enables physicians to collaborate with each other and to plot de-identified patients' data in comparison to other patients' data stored in the database 126, including a physician's patients—which are identifiable through the encrypted identifier. In one particular example, a physician may plot how the physician's patients compare to patients in another world/country/state/region/city.

In one exemplary embodiment, the database 126 may be structured to enable collaborators to generate a private research space within the medical integration system 102. Collaborators share data within the private research space and with others if they choose to do so. Additionally, the database 126 may include a public space. The public space includes, for example, the information and data which is accessible to all users and members of the medical integration system 102.

The medical integration system 102 also includes, for example, an integration module, which is compliant with HIPAA and which allows the various processes, modules and sub-systems associated with the medical integration system 102 to communicate with one another and access the data stored in the database 126.

Data Mining and Research Tools Module

In the illustrated example of FIG. 1, the medical integration system 102 also includes a data mining and research tool module 120 (collectively referred to as “research tool” herein, without limitation, for purposes of convenience), which may be data (e.g., information regarding a particular study or instrument) stored in the database 126 based on selected criteria. Through the research tool, a user compares instrument scores, views instrument scores, and views individual patient scores for a particular instrument for various timeline points in a study.

The research tool includes, for example, a visual dynamic query tool to mine, retrieve and graph data from the various studies. The visual dynamic query tool includes a graphical user interface through which users of the medical integration system 102 generate queries and send the generated queries to the database 126. The research tool may also include a visual search tool though which a user of medical integration system 102 enters search criteria (e.g., an age range for patients, gender information, race information or a study name). In this particular example, based on the entered search criteria, the medical integration system 102 may generate a search query and queries the database 126 using the generated search query. The database 126 returns to the system 102 data matching the criteria included in the search query. The returned data may be formatted to fit a desired visual charting type. Additionally, the research tool 120 may execute statistical analysis rules to determine various statistical calculations, including, without limitation, average, mean, median and standard deviation calculations, for study scores, instrument scores and scores linked to a patient. In this example, the statistical calculations include statistical data points, which may include average or median calculations for a particular instrument within a study or for a particular subset of patients within a study.

FIG. 14 illustrates a particular exemplary embodiment described herein. Referring to FIG. 14, the medical integration system 102 generates a graphical user interface 370 that displays a real-time chart representative of the executed queries and the data retrieved through the executed queries. The illustrated graphical user interface 370 includes a section 372 in which the user selects the study for which a real-time chart is generated. The illustrated graphical user interface 370 also includes a section 374 in which the user selects the physicians for which the user desires to view associated patient results. The illustrated graphical user interface 370 includes a section 376 in which the user may select the instruments within a selected study for which real-time data is charted. Based on the user's selected criteria, the illustrated graphical user interface 370 displays a chart 378 of the instrument scores associated with the selected instruments for the selected physicians.

In one exemplary embodiment, the medical integration system 102 includes an export data module to export and/or display data queried from the database 126 in a pre-defined format (e.g., a format that publications support and a format that conforms to medical journal and associations guidelines). In another exemplary embodiment, the medical integration system 102 also includes a multi-language module, which enables different language speaking researchers to communicate with each other in the researchers' native language. Through the execution of language rules which translate characters in a first language into a second language, the medical integration system 102 captures, executes, interprets and displays the review forums, instruments and queried data in the native language format of the researcher. Through the multi-language module, for example, the queried data is capable of being displayed in another, different language.

In one particular example, a German researcher queries the medical integration system 102 in German and sends the queried data to an American collaborator. The medical integration system 102 recognizes the language difference between the sender (i.e., the German researcher) and the recipient (i.e., the American collaborator) and displays and sends the query results in English to the American collaborator. Additionally, through the multi-language module, patients may complete instruments and data is input and saved into the databases 126 in one language. Through the multi-language module, the completed instrument data may be viewed and/or queried by a user of the medical integration system 102 using a second language.

Procedure Determination Module

The instruments described herein are often generated to test the efficacy of a procedure (e.g., a surgical procedure or a pharmaceutical treatment). In this case, through the use of the timelines described above, the system 102 may collect instrument data (through the various questions and answers) pertaining to a patient's symptoms, pain level, disability level or any other patient attributes (collectively referred to as “disability level” herein, without limitation, for purposes of convenience) before the procedure (“before procedure questions”) and after the procedure (“after procedure questions”). In a preferred embodiment, a physician links a procedure identifier (e.g., a procedure code or a procedure description) to the instrument. As the database 126 collects and stores the patient's answers to the questions included in the instrument, the answers are associated with the procedure identifier. In this preferred embodiment, the database stores a list of symptoms associated with a procedure, where the symptoms are categorized as those symptoms occurring before the procedure and those symptoms occurring after the procedure.

In the exemplary embodiment described herein, the medical integration system 102 may also include procedure assessment rules, which “grade” or classify a procedure based on the determined efficacy of the procedure. In a particular example, the procedure assessment rules collate the patient's symptoms before the procedure and the patient's symptoms after the procedure to determine if the patient's symptoms have improved following the procedure. For the procedures which improve a patient's symptoms, the procedure assessment rules may categorize those procedures as being effective.

The medical integration system 102 also includes, for example, procedure determination rules to determine a recommended procedure or a recommended medical device based on patient's symptoms and an instrument's score values, including, for example, symptom severity score values and symptom improvement score values. The medical integration system 102 generates the procedure determination rules by determining the medical procedures that have been categorized as effective (“effective medical procedures”) based on the score values associated with a user's answers to various questions in an instrument. In one particular example, the system 102 determines the efficacy of a joint replacement surgical procedure. A before procedure question includes the following question: “What level of pain are you experiencing in your joint?” The symptom improvement score values associated with this question include, for example, “1”, “2” and “3”. A score value of “1” is indicative of a high pain level. A score value of “2” is indicative of a moderate pain level. A score value of “3” is indicative of a low pain level. In this example, the after procedure question includes the same question (i.e., “what level of pain are you experiencing in your joint?”) as the before procedure question with the same associated score values. If a patient answered the before procedure question with a “high pain level” answer (i.e., a symptom improvement score value of “1”) and the after procedure question with the “low pain level” answer (i.e., a symptom improvement score value of “3”), the system 102 categorizes the joint replacement surgical procedure as an effective medical procedure, based on the symptom improvement score value increasing from a value of “1” to a value of “3.”

In the exemplary embodiment described herein, for the effective medical procedures, the medical integration system 102 generates a procedure determination rule including the symptoms patients experienced before the procedure. In a particular example, a procedure determination rule for joint replacement includes the following instructions “If symptoms==joint pain or joint difficulty or joint swelling, then procedure==joint replacement.” When a user inputs a patient's symptoms into the system 102, the procedure determination module 122 in this example executes the procedure determination rules by matching one or more characters included in the input symptoms to the symptoms included in the procedure determination rules. Based on returned symptom matches, the procedure determination rules generate a list of recommended procedures.

Patient Flow Module

Busy clinics experience patient overload that results in patients waiting longer to see a physician. As wait times increase, patient satisfaction with a patient's physician and/or clinic experience decreases. In the illustrated example of FIG. 1, the patient flow module 124 improves patient satisfaction by efficiently tracking actions a patient needs to take and instruments a patient needs to fill out prior to engaging with a physician. The illustrated patient flow module 124 is integrated with various aspects of the medical integration system 102, including, for example, the database 126. Through querying the database 126, the patient flow module 124 determines the instruments a patient needs to complete prior to a consultation with a physician. The patient flow module 124 may also track a patient's steps and activities from the time the patient arrives at the clinic, registers with the clinic, waits to see a nurse, is seen by a nurse and is moved to an examination room. In a preferred embodiment, the module 124 provides clinics (e.g., physicians and nurses and health care providers) feedback and guidance as to the next action to be performed and the information the patient needs to provide the clinic, physician or nurse. By tracking this information, the patient flow module 126 facilitates moving patients through the clinic check-in process more quickly and thereby alleviates patient wait time. The module 124 may also manage patient load by alerting health care providers of the steps that need to be taken to move patients through an examination.

To facilitate quick and easy check-in once a patient has arrived at a clinic, the medical integration system 102 may generate a portal environment through which a patient accesses the medical integration system 102 to view the patient's appointment by entering patient information, including, for example, name information, date of birth information and/or selecting the name of the patient's doctor at the clinic. In a preferred embodiment, using the entered information, the medical integration system 102 queries the database 126 for the patient's appointment and determines the physician with which the patient is scheduled for an appointment. The module 126 may also query the database 126 to determine a listing of one or more instruments which the patient's physician requires the patient to complete prior to the consultation.

FIG. 15 illustrates a particular exemplary embodiment described herein. Referring to FIG. 15, the patient flow module 124 performs 380 various actions in tracking a user's appointment with a physician. The patient flow module 124 queries 381 the database 126 for a list of instruments linked to a physician thereby determining the instruments a physician requires a patient to complete prior to an examination. In this illustrated example, based on the query results, the patient flow module 124 determines 382 a list of instruments the patient needs to complete and the content of answers for the questions in a completed instrument. Additionally, in this illustrated example, the patient flow module 124 generates 383 a list of instruments the patient needs to completes and generates a graphical user interface that includes this list, as described in further detail below.

In the exemplary embodiment described herein, the database 126 may store medical assessment rules (i.e., instructions for how the system 102, the patient flow module 124 or a process executed by the system 102 analyzes and assesses the content of a user's answers to questions included in an instrument.) Through execution of the medical assessment rules, the system 102 determines, without limitation, diagnosis information, treatment information and medication information for a patient. The system 102 generates the medical assessment rules by receiving a listing of symptoms (e.g., symptoms regarding pain) and a listing of medical diagnoses associated with the symptoms. In a particular example of a medical assessment rule, if the system receives patient symptoms indicating that the patient is experiencing pain when opening a jar, then the patient is assigned an assessment of “wrist pain.”

In the illustrated example of FIG. 15, the patient flow module 124 retrieves 138 the medical assessment rules from the database 126 and applies 385 the assessments rules to the content and characters included in the patient's answers. Through the application of the medical assessment rules, the patient flow module 124 may generate a list of diagnoses and treatments applicable to the patient.

FIG. 16 illustrates a particular exemplary embodiment described herein. Referring to FIG. 16, the medical integration system 102 generates a graphical user interface 387 that when rendered on a display device displays a visual representation 388 of the names of the forms that need to be filled out by the patient. The illustrated graphical user interface 387 also includes links 389 a, 389 b, selection of which cause the medical integration system 102 to generate another graphical user interface that displays the contents of the instrument associated with the selected link. In a preferred embodiment, as a patient fills out and completes the selected instruments, the patient's entered data and answers are saved in the database 126, allowing the patient's entered data and answers to be viewed both by the patient's physician and by other researchers and collaborators querying the database 126, as described above.

Referring to the illustrated example of FIG. 1, the patient flow module 124 also notifies health care providers, including physicians and nurses, of the instruments a patient has already completed. In a preferred embodiment, the illustrated patient flow module 124 generates an electronic message including a list of the names of the completed instruments and the system 102 sends the electronic message to the health care provider. Additionally, the module 124 enables the health care providers to add additional instruments to the list of instruments for a patient to complete. Referring to the illustrated example of FIG. 16, these newly added instruments may be displayed in graphical user interface 387, notifying the patient of the newly added instruments.

Referring back to the illustrated example of FIG. 1, the patient flow module 124 facilitates information flow and continuing of medical care by enabling health care providers to send completed instruments to other health care providers and external and internal EMR systems. FIG. 17 illustrates a particular exemplary embodiment described herein. Referring to FIG. 17, the medical integration system 102 generates a graphical user interface 390, with illustrated section 392 displaying a list of the instruments with which a patient is currently associated and which the patient needs to complete. Through selection of the illustrated link 394, a health care provider adds another instrument to the list of instruments the patient needs to complete. Section 396 of the illustrated graphical user interface 390 enables a user to send a completed instrument to a recipient (e.g., a physician), through selection of link 398, thereby facilitating continuity of medical care.

In the illustrated example of FIG. 1, the patient flow module 124 interacts with appointment systems and EMR systems 128 to enable health care providers to manage appointments, monitor patient flow in a clinic and perform the proper processes and tasks needed move patients through the clinic. In a particular example, the system 102 retrieves a physician's appointment schedule from the database 126 or another appointment schedule system. A physician's appointment schedule includes the names of the patients schedule for a visit with the physicians. In this example, if a physician is overbooked or double booked, the module 124 enables a user to associate one or more of the physician's appointments with another physician, thereby decreasing the amount by which one physician is overbooked and decreasing the amount of time a patient needs to wait to see a physician.

In the exemplary embodiment described herein, the patient flow module 124 may query the database 126 for a list of instruments completed by a particular patient. The module 124 may apply the medical assessment rules, described above, to analyze the patient data (e.g., answers to the questions included in the instrument) and to generate a visual representation of the health problems and issues experienced by the patient. In this embodiment, the visual representation enables health care providers to quickly and accurately assess a patient's condition, saving the health care provider time in diagnosing a patient's health problems.

FIG. 18 illustrates a particular exemplary embodiment described herein. Referring to FIG. 18, the medical integration system 102 generates a graphical user interface 400 including one or more visual representations 402 of a section of the patient's anatomy in which the patient is experiencing pain or a medical issue. Section 404 of the illustrated graphical user interface 400 chronicles these visual representations 402 as a function of time or medical visits with the physician or clinic. Illustrated section 406 of the graphical user interface 400 includes, for example, metrics associated with a patient's treatment, diagnosis and symptoms. Illustrated section 406 is also represented as a function of time or visits in comparison to section 404.

Embodiments can be implemented in digital electronic circuitry, or in computer hardware, firmware, software, or in combinations thereof. Apparatus of the invention can be implemented in a computer program product tangibly embodied or stored in a machine-readable storage device for execution by a programmable processor; and method actions can be performed by a programmable processor executing a program of instructions to perform functions of the invention by operating on input data and generating output. The invention can be implemented advantageously in one or more computer programs that are executable on a programmable system including at least one programmable processor coupled to receive data and instructions from, and to transmit data and instructions to, a data storage system, at least one input device, and at least one output device. Each computer program can be implemented in a high-level procedural or object oriented programming language, or in assembly or machine language if desired; and in any case, the language can be a compiled or interpreted language.

Processors suitable for the execution of a computer program include, by way of example, both general and special purpose microprocessors, and any one or more processors of any kind of digital computer. Generally, a processor will receive instructions and data from a read-only memory or a random-access memory or both. The essential elements of a computer are a processor for executing instructions and one or more memory devices for storing instructions and data. Generally, a computer will also include, or be operatively coupled to receive data from or transfer data to, or both, one or more mass storage devices for storing data, e.g., magnetic, magneto optical disks, or optical disks. Computer readable media for embodying computer program instructions and data include all forms of non-volatile memory, including by way of example semiconductor memory devices, e.g., EPROM, EEPROM, and flash memory devices; magnetic disks, e.g., internal hard disks or removable disks; magneto optical disks; and CD ROM and DVD-ROM disks. The processor and the memory can be supplemented by, or incorporated in special purpose logic circuitry. Any of the foregoing can be supplemented by, or incorporated in, ASICs (application-specific integrated circuits).

To provide for interaction with a user, embodiments can be implemented on a computer having a display device, e.g., a LCD (liquid crystal display) monitor, for displaying information to the user and a keyboard and a pointing device, e.g., a mouse or a trackball, by which the user can provide input to the computer. Other kinds of devices can be used to provide for interaction with a user as well; for example, feedback provided to the user can be any form of sensory feedback, e.g., visual feedback, auditory feedback, or tactile feedback; and input from the user can be received in any form, including acoustic, speech, or tactile input.

Embodiments can be implemented in a computing system that includes a back end component, e.g., as a data server, or that includes a middleware component, e.g., an application server, or that includes a front end component, e.g., a client computer having a graphical user interface or a Web browser through which a user can interact with an implementation of embodiments, or any combination of such back end, middleware, or front end components. The components of the system can be interconnected by any form or medium of digital data communication, e.g., a communication network. Examples of communication networks include a local area network (LAN) and a wide area network (WAN), e.g., the Internet.

The system and method use the “World Wide Web” (Web or WWW), which is that collection of servers on the Internet that utilize the Hypertext Transfer Protocol (HTTP). HTTP is a known application protocol that provides users access to resources, which may be information in different formats such as text, graphics, images, sound, video, Hypertext Markup Language (HTML), as well as programs. Upon specification of a link by the user, the client computer makes a TCP/IP request to a Web server and receives information, which may be another Web page that is formatted according to HTML. Users can also access other pages on the same or other servers by following instructions on the screen, entering certain data, or clicking on selected icons. It should also be noted that any type of selection device known to those skilled in the art, such as check boxes, drop-down boxes, and the like, may be used for embodiments using web pages to allow a user to select options for a given component. Servers run on a variety of platforms, including UNIX machines, although other platforms, such as Windows 2000/2003, Windows NT, Sun, Linux, and Macintosh may also be used. Computer users can view information available on servers or networks on the Web through the use of browsing software, such as Firefox, Netscape Navigator, Microsoft Internet Explorer, or Mosaic browsers. The computing system can include clients and servers. A client and server are generally remote from each other and typically interact through a communication network. The relationship of client and server arises by virtue of computer programs running on the respective computers and having a client-server relationship to each other.

Other embodiments are within the scope and spirit of the description claims. In one embodiment, the rules described herein (e.g., the procedure determination rules or the medical assessment rules) are executed by a rules engine included in the system 102. In another embodiment, data collected by the system 102 through the instruments is stored in an EMR system 128. The research tool may then query the EMR system 128 for patient data matching one or more patient criteria. Through the network 112, the matching data is returned to the system 102 and the research tool processes and analyzes the returned data. In yet another embodiment, the techniques described herein are used to generate, review and validate instruments pertaining to various fields (e.g., the veterinary field, the legal field and the financial services field) and collect and retrieve data for the instruments pertaining to the various fields. In still another embodiment, the instrument generation module 116, the instrument validation module 118, the research tools module 120, the procedure determination module 122 and the patient flow module 124 are integrated together through various communication channels and/or are implemented as an instrument generation system, an instrument validation system, a research tools system, a procedure determination system and a patient flow system (collectively referred to as “the systems” herein, without limitation, for the purposes of convenience), with each system including one or more servers or computing devices and the systems being integrated together through various communication channels and/or network connections.

Additionally, due to the nature of software, functions described above can be implemented using software, hardware, firmware, hardwiring, or combinations of any of these. Features implementing functions may also be physically located at various positions, including being distributed such that portions of functions are implemented at different physical locations. The use of the term “a” herein and throughout the application is not used in a limiting manner and therefore is not meant to exclude a multiple meaning or a “one or more” meaning for the term “a.” Additionally, to the extent priority is claimed to a provisional patent application, it should be understood that the provisional patent application is not limiting but includes examples of how the techniques described herein may be implemented. 

What is claimed is:
 1. A computer-implemented method comprising: generating, by one or more computers, a medical study, the medical study comprising a list of questionnaires used in the medical study and criteria for a patient to possess for inclusion in the medical study; submitting, by the one or more computers, the medical study to an online review forum for review and validation of the medical study; receiving, by the one or more computers in response to submission of the medical study to the online review forum, information specifying that the medical study has been validated by the online review forum; tracking, by the one or more computers, a patient's medical appointment with a physician; determining, by the one or more computers, that the patient possesses the criteria associated with the medical study; generating, by the one or more computers based on determining that the patient possesses the criteria associated with the medical study, data for a graphical user interface that when rendered on a display device, includes: a link, with selection of the link adding the validated medical study to a list of one or more medical studies that the physician requires the patient to complete prior to the medical appointment; receiving by the one or more computers one or more responses to questions included in the medical study added to the list; storing, by the one or more computers in a data repository, the one or more responses in a format that promotes anonymity of the patient for access by one or more of the physician and researchers; applying, by the one or more computers, one or more medical assessments rules to the one or more responses; and determining, by the one or more computers based on application of the one or more medical assessment rules, at least one of diagnosis information, treatment information and medication information for the patient, generating by the one or more computers data for a second graphical user interface that when rendered on the display device comprises: a plurality of visual representations of a section of the patient's anatomy in which the patient is experiencing a medical issue; wherein the plurality of visual representations are chronicled over a period of time; wherein at least one of the visual representations includes a visual representation of a portion of the patient's anatomy associated with at least one of the diagnosis information, the treatment information and the medication information determined through application of the one or more medical assessment rules.
 2. The computer-implemented method of claim 1, wherein the link comprises a first link, and wherein the method further comprises: generating data for a third graphical user interface that when rendered on the display device renders: a visual representation of a notification of the one or more required medical studies that the patient has not completed; and a second link, selection of which causes the display device to display a selected medical study, with the second link being juxtaposed to the visual representation of the notification.
 3. The computer-implemented method of claim 1, further comprising: generating, by the one or more computers, an association between at least one of the diagnosis information, treatment information and medication information for the patient and information indicative of a medical visit between the patient and the physician.
 4. A computer program product residing on a non-transitory computer readable storage medium, the computer program product comprising instructions for causing a computer to perform operations comprising: generating a medical study, the medical study comprising a list of questionnaires used in the medical study and criteria for a patient to possess for inclusion in the medical study; submitting the medical study to an online review forum for review and validation of the medical study; receiving, in response to submission of the medical study to the online review forum, information specifying that the medical study has been validated by the online review forum; tracking a patient's medical appointment with a physician; determining that the patient possesses the criteria associated with the medical study; generating, based on determining that the patient possesses the criteria associated with the medical study, data for a graphical user interface that when rendered on a display device, includes: a link, with selection of the link adding the validated medical study to a list of one or more medical studies that the physician requires the patient to complete prior to the medical appointment; receiving one or more responses to questions included in the medical study added to the list; storing, in a data repository, the one or more responses in a format that promotes anonymity of the patient for access by one or more of the physician and researchers; applying one or more medical assessments rules to the one or more responses; and determining, based on application of the one or more medical assessment rules, at least one of diagnosis information, treatment information and medication information for the patient, generating data for a second graphical user interface that when rendered on the display device comprises: a plurality of visual representations of a section of the patient's anatomy in which the patient is experiencing a medical issue; wherein the plurality of visual representations are chronicled over a period of time; wherein at least one of the visual representations includes a visual representation of a portion of the patient's anatomy associated with at least one of the diagnosis information, the treatment information and the medication information determined through application of the one or more medical assessment rules.
 5. The computer program product of claim 4, wherein the link comprises a first link, and wherein the operations further comprise: generating data for a third graphical user interface that when rendered on the display device renders: a visual representation of a notification of the one or more required medical studies that the patient has not completed; and a second link, selection of which causes the display device to display a selected medical study, with the second link being juxtaposed to the visual representation of the notification.
 6. The computer program product of claim 4, wherein the operations further comprise: generating an association between at least one of the diagnosis information, treatment information and medication information for the patient and information indicative of a medical visit between the patient and the physician.
 7. An apparatus comprising: a processor; and a computer program product residing on a computer readable storage device, the computer program product comprising instructions for causing the processor to perform operations comprising: generating a medical study, the medical study comprising a list of questionnaires used in the medical study and criteria for a patient to possess for inclusion in the medical study; submitting the medical study to an online review forum for review and validation of the medical study; receiving, in response to submission of the medical study to the online review forum, information specifying that the medical study has been validated by the online review forum; tracking a patient's medical appointment with a physician; determining that the patient possesses the criteria associated with the medical study; generating, based on determining that the patient possesses the criteria associated with the medical study, data for a graphical user interface that when rendered on a display device, includes: a link, with selection of the link adding the validated medical study to a list of one or more medical studies that the physician requires the patient to complete prior to the medical appointment; receiving one or more responses to questions included in the medical study added to the list; storing, in a data repository, the one or more responses in a format that promotes anonymity of the patient for access by one or more of the physician and researchers; applying, by the one or more computers, one or more medical assessments rules to the one or more responses; and determining, based on application of the one or more medical assessment rules, at least one of diagnosis information, treatment information and medication information for the patient, generating data for a second graphical user interface that when rendered on the display device comprises: a plurality of visual representations of a section of the patient's anatomy in which the patient is experiencing a medical issue; wherein the plurality of visual representations are chronicled over a period of time; wherein at least one of the visual representations includes a visual representation of a portion of the patient's anatomy associated with at least one of the diagnosis information, the treatment information and the medication information determined through application of the one or more medical assessment rules.
 8. The apparatus of claim 7, wherein the link comprises a first link, and wherein the operations further comprise: generating data for a third graphical user interface that when rendered on the display device renders: a visual representation of a notification of the one or more required medical studies that the patient has not completed; and a second link, selection of which causes the display device to display a selected medical study, with the second link being juxtaposed to the visual representation of the notification.
 9. The apparatus of claim 7, wherein the operations further comprise: generating an association between at least one of the diagnosis information, treatment information and medication information for the patient and information indicative of a medical visit between the patient and the physician. 